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Test: Digital Transmission - Electronics and Communication Engineering (ECE) MCQ


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20 Questions MCQ Test - Test: Digital Transmission

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Test: Digital Transmission - Question 1

A linear delta modulator is designed to operate on speech signals limited to 3.4 kHz. The sampling rate is 10 time the Nyquist rate of the speech signal. The step size δ  is 100 mV. The modulator is tested with a this test signal required to avoid slope overload is

Detailed Solution for Test: Digital Transmission - Question 1

Test: Digital Transmission - Question 2

Consider a linear DM system designed to accommodate analog message signals limited to bandwidth of 3.5 kHz. A sinusoidal test signals of amplitude Amax = 1 V and frequency fm = 800 Hz is applied to system. The sampling rate of the system is 64 kHz.

Que: The minimum value of the step size to avoid overload is

Detailed Solution for Test: Digital Transmission - Question 2

Given:

B = 3.5 kHz,

Am = 1 V,

fm = 800 Hz and fs = 64 kHz
Since fs = 64 kHz, the time duration of the sample will be:
Let the step-size of the delta modulated signal be δ.
δ ≥ (1.56 × 10-5) × 1 × (2π × 800)
δ ≥ 7.84 × 10-2 V
∴ The minimum step size to avoid slope overload will be:
δ = 78.5 mV

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Test: Digital Transmission - Question 3

Consider a linear DM system designed to accommodate analog message signals limited to bandwidth of 3.5 kHz. A sinusoidal test signals of amplitude Amax = 1 V and frequency fm = 800 Hz is applied to system. The sampling rate of the system is 64 kHz.

Que: The granular-noise power would be

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Test: Digital Transmission - Question 4

The SNR will be

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Test: Digital Transmission - Question 5

The output signal-to-quantization-noise ratio of a 10-bit PCM was found to be 30 dB. The desired SNR is 42 dB. It can be increased by increasing the number of quantization level.In this way the fractional increase in the transmission bandwidth would be (assume log210 = 0.3)

Detailed Solution for Test: Digital Transmission - Question 5

= log C + 20 nlog2  =   α + 6 ndB. This equation shows that increasing n by one bits increase the by 6 dB.
Hence an increase in the SNR by 12 dB can be accomplished by increasing 9is form 10 to 12, the transmission bandwidth would be increased by 20%

Test: Digital Transmission - Question 6

The amplitude of a random signal is uniformly distributed between –5V and 5V. If the signal to quantization noise ratio required in uniformly quantizing the signal is 43.5dB, the step size of the quantization is approximately-

Detailed Solution for Test: Digital Transmission - Question 6

Given; Signal to quantization noise  = 43.5 dB
The amplitude of a random signal is uniformly distributed between –5V and 5V.

 

E[X2] = 52/3 = 25/3

E[XQE2] = δ2/12

SNR = (25/3)/ (δ2/12) = 100/ δ2

SNR (dB) = 10log(SNR)

⇒ 43.5 =  10log(SNR)

⇒  log(SNR) = 43.5/10

⇒  SNR= 104.35 

Therefore

100/ δ2 = 104.35 

⇒ δ2 = 100/104.35 

⇒ δ = 0.0667

Test: Digital Transmission - Question 7

A signal having a bandwidth of 5 MHz is transmitted using the Pulse code modulation (PCM) scheme as follows. The signal is sampled at a rate of 50% above the Nyquist rate and quantized into 256 levels. The binary pulse rate of the PCM signal in Mbits per second is ___.

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Test: Digital Transmission - Question 8

For a PCM signal the compression parameter μ = 100 and the minimum signal to quantization-noiseratio is 50 dB. The number of bits per sample would be.

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Test: Digital Transmission - Question 9

A sinusoidal message signal is converted to a PCM signal using a uniform quantizer. The required signal-to-quantization noise ratio (SQNR) at the output of the quantizer is 40 dB. The minimum number of bits per sample needed to achieve the desired SQNR is __________ . 

Detailed Solution for Test: Digital Transmission - Question 9

Concept:

SNR (Signal to Noise Ratio) for a sinusoidal message signal Quantized uniformly with ‘n’ bits in given by;  SNRAB = 6n + 1.8

Calculation: Given, SNR = 40 dB, required at the output;

So, 40 ≤  6n + 1.8

6n ≥  40 – 1.8

n ≥  6.366

So, the minimum number of bits per sample needed to achieve the derived SQNR is 7 bits 

Test: Digital Transmission - Question 10

A speech signal has a total duration of 20 sec. It is sampled at the rate of 8 kHz and then PCM encoded. The signal-to-quantization noise ratio is required to be 40dB. The minimum storage capacity needed to accommodate this signal is

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Test: Digital Transmission - Question 11

The input to a linear delta modulator having fstep-size Δ = 0.628 is a sine wave with frequency fm and peak amplitude Em. If the sampling frequency fs = 40 kHz, the combination of the sinc-wave frequency and the peak amplitude, where slope overload will take place is

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Test: Digital Transmission - Question 12

A sinusoidal signal with peak-to-peak amplitude of 1.536 V is quantized into 128 levels using a mid-rise uniform quantizer. The quantization-noise power is

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Test: Digital Transmission - Question 13

signal is sampled at 8 kHz and is quantized using 8 bit uniform quantizer. Assuming SNRq for a sinusoidal signal, the correct statement for PCM signal with a bit rate of R is

Detailed Solution for Test: Digital Transmission - Question 13

Bit Rate = 8k x 8 = 64 kbps

Test: Digital Transmission - Question 14

A 1.0 kHz signal is flat-top sampled at the rate of 180 samples sec and the samples are applied to an idealrectangular LPF with cat-off frequency of 1100 Hz, then the output of the filter contains

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Since the sampling rate is 1800 samples/sec the highest frequency that can be recovered is 900 Hz.

Test: Digital Transmission - Question 15

The Nyquist sampling interval, for the signal sinc(700t) + sinc(500t) is

Detailed Solution for Test: Digital Transmission - Question 15

x(t) = sinc 700t + sinc 500t

Test: Digital Transmission - Question 16

A signal x(t) = 100 cos(24π x 103)t is ideally sampled with a sampling period of 50 sec and then passed through an ideal lowpass filter with cutoff frequency of 15 KHz. Which of the following frequencies is/are present at the filter output

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Test: Digital Transmission - Question 17

In a PCM system, if the code word length is increased form 6 to 8 bits, the signal to quantization noise ratio improves by the factor.

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Test: Digital Transmission - Question 18

Four signals g1(t) , g3(t), g2(t) and g4(t) are to be multiplexed and transmitted. g1(t)  and g4(t) have a bandwidth of 4 kHz, and the remaining two signals have bandwidth of 8 kHz,. Each sample requires 8 bit for encoding. What is the minimum transmission bit rate of the system.

Detailed Solution for Test: Digital Transmission - Question 18

signals g1(t) , g3(t), g2(t) and g4(t) will have 8 k, 8 k, 16 k and 16 k sample/sec at Nyquist rate. Thus 48000 sample/sec bit rate 48000 x  8 =384 kbps

Test: Digital Transmission - Question 19

Three analog signals, having bandwidths 1200 Hz, 600 Hz and 600 Hz, are sampled at their respective Nyquist rates, encoded with 12 bit words, and time division multiplexed. The bit rate for the multiplexed signal is

Detailed Solution for Test: Digital Transmission - Question 19

Analog signals, having bandwidth 1200 Hz, 600 Hz and 600 Hz have 2400, 1200 samples/sec at Nyquist rate. Hence 48000 sample/sec

bit rate  = 48000 sample/sec x 12 = 57.6 kbps

Test: Digital Transmission - Question 20

The minimum sampling frequency (in samples/sec) required to reconstruct the following signal form its samples without distortion would be

Detailed Solution for Test: Digital Transmission - Question 20

Maximum frequency component = 3 x 1000 = 3 kHz Sampling rate = 2 fm = 6kHz

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